NICKEL CRUCIBLE: Elevate your industrial processes with our top-tier Nickel Crucible, embodying robustness and durability that stands the test of time.
The primary application feature of nickel crucibles lies in their extraordinary ability to resist corrosion and maintain thermal stability, even when faced with high temperatures and strong-alkali environments. This exceptional quality is specifically demonstrated as:
Core Advantage Analysis: Discover the unparalleled advantages of our nickel crucibles that set them apart as indispensable tools in demanding industrial settings.
1. Resistance to strong alkali corrosion (core characteristic): Our nickel crucibles offer exceptional resilience against powerful alkali corrosion, solidifying their position as a trusted choice in the industry.
Unique advantage: Our crucibles excel in molten alkaline solutions, such as NaOH and KOH, surpassing the performance of most metal materials like iron and stainless steel. As the **ideal container** for alkali fusion sample processing, it ensures superior results.
Application scenarios: Our nickel crucibles are perfect for chemical laboratory sample pretreatment, decomposition of rare earth oxides, and sintering of lithium battery positive electrode materials. They thrive in high-temperature processes involving contact with strong alkali, offering reliability and efficiency.
2. High Temperature Stability (Critical Support): Experience unmatched high-temperature stability with our crucibles, engineered to support your critical processes.
Operating Temperature: With a remarkable ability to withstand temperatures up to ≤ 1200ºC, and short-term peaks reaching 1455ºC, our crucibles combine superior thermal conductivity with exceptional thermal shock resistance, outperforming ceramic crucibles in dynamic environments.
Applicable Processes: Perfect for precious metal melting, single crystal growth, and high-temperature synthesis, our crucibles thrive in scenarios demanding rapid temperature changes, ensuring optimal performance and unparalleled efficiency.
| Nickel CRUCIBLE SPECIFICATIONS |
| Product Name |
Nickel Crucible |
| Keywords |
Integrated Nickel Crucible |
| Material |
Nickel |
| Chemical Composition |
|
| Purity |
99.6% |
| Surface |
Bright Soft Surface |
| Thickness |
Customizable |
| Density |
8.95g/cm3 |
| Color |
Silver Gray |
| Melting Point |
1455 Degrees Celsius |
| Boiling Point |
2913 Degrees Celsius |
| Condition |
Vacuum Annealed |
| OEM |
Customizable |
| Size |
Customizable |
| Packaging |
According To Customer Needs |
| We support customization of Hafnium Plate of various specifications and uses |
HIGH MELTING POINT AND HIGH TEMPERATURE RESISTANCE:
The primary application feature of nickel crucibles is their outstanding corrosion resistance and thermal stability in high-temperature and strong-alkali environments. This is specifically manifested as:
Core Advantage Analysis
1. Resistance to strong alkali corrosion (core characteristic)
Unique advantage: Exceptionally excels in molten alkaline solutions (such as NaOH, KOH), surpassing most metal materials (like iron, stainless steel), making it the **ideal container** for alkali fusion sample processing.
Application scenarios: Perfect for chemical laboratory sample pretreatment, decomposition of rare earth oxides, and sintering of lithium battery positive electrode materials, especially in high-temperature processes demanding contact with strong alkali.
EXCELLENT CHEMICAL STABILITY:
High-temperature stability (key support)
Operating temperature: Capable of enduring a maximum temperature of ≤ 1200ºC (with short-term peaks reaching up to 1455ºC), and offers superior thermal conductivity and shock resistance compared to ceramic crucibles.
Applicable processes: Ideal for precious metal melting, single crystal growth, and high-temperature synthesis, in scenarios demanding rapid temperature fluctuations.
GOOD DEFORMATION RESISTANCE:
Why is it the most distinctive feature?
Unreplaceability: Where most metal crucibles (like iron and aluminum) face corrosion issues in strong alkali at high temperatures, and ceramic crucibles, though corrosion-resistant, suffer from poor heat conductivity and cracking. Nickel crucibles offer unmatched overall performance in alkaline high-temperature conditions, standing out amongst similar products.
Market demand focus: The rising demand for alkaline melting in sectors like metallurgy, chemical engineering, and new energy (including rare earth purification and lithium battery material processing) propels nickel crucibles into an indispensable tool in these fields.
GOOD PROCESSING PERFORMANCE:
Nickel strikes the perfect harmony between hardness and ductility, enabling it to be effortlessly drawn into filaments or crafted into thin foils. This versatility ensures tantalum crucibles can be precisely shaped and sized to meet diverse application requirements.
REUSABILITY:
With proper care and maintenance, nickel crucibles can become a long-lasting ally, offering repetitive use and significantly reducing operational costs efficiently.
Q1. How do you guarantee the quality of your products?
A1. All products will go through a rigorous testing process, and we can provide you with a quality test report if you need it.
Q2. Can I get a sample before placing an order?
A2. Of course! If it is a normal size and we have stock in our warehouse, we will provide samples for free.
Q3. Is the alloy corrosion-resistant?
A3. Yes. Their corrosion resistance makes the industry use them in extreme environments such as aerospace and chemical industries.
Q4. What is the minimum tolerance you can do?
A4. Customized according to international specifications or customer requirements.
Usually, the tolerance of machined parts is ±0.002mm
Q5. Are you a manufacturing supplier?
A5. Yes, we are a manufacturer.
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